CN106062696A - Three-part gesture - Google Patents

Abstract

An example method is provided in according with one implementation of the present disclosure. The method includes displaying a first screen on a first display of an electronic device and a second screen on at least one second display connected to the electronic device. The method further includes identifying a three-part gesture received on an input device and rotating a screen orientation of one of the first display or the second display based on the gesture.

Description

Three part postures

Background technology

Increasing current user carries or operates one or more electronic equipment being furnished with a set of difference in functionality.These Equipment can be in communication with each other, access the Internet, show different content (such as, on embedded or external display), carry out each Kind of task or serviced by network access data.Various equipment, such as, personal computer, integral type calculate equipment, networking is put down Plate, smart phone, kneetop computer, TV and game machine, have become as connect user and friend, work and entertain must Few personal accessory.User has more select and expectation shows at any time and visits effectively connecting different equipment now Ask program, data and other guide.

Accompanying drawing explanation

Fig. 1 be the realization according to the disclosure, for rotating electronic device display screen orientation, be rotatably coupled to The screen of at least one external display of electronic equipment is orientated and for changing the electronic equipment of the display pattern of display The schematic diagram of example.

Fig. 2 illustrate illustrate the realization according to the disclosure, for rotating electronic device display screen orientation or For being rotatably coupled to the flow chart of the example of the method that the screen of at least one external display of electronic equipment is orientated.

Fig. 3 A and Fig. 3 B illustrate the realization according to the disclosure, for rotating display device screen be orientated three part appearances The example of gesture.

Fig. 4 A and Fig. 4 B illustrate the realization according to the disclosure, for rotating display device screen be orientated three part appearances The alternative example of gesture.

Fig. 5 illustrates the side of display that illustrate the realization according to the disclosure, that need to be rotated for recognition screen orientation The flow chart of the example of method.

Fig. 6 illustrate illustrate the realization according to the disclosure, for change the display of electronic equipment and at least one outside The flow chart of the example of the method for the display pattern of portion's display.

Fig. 7 A and Fig. 7 B illustrate the realization according to the disclosure, for change the display of electronic equipment and at least one The example of the posture of the display pattern of external display.

Fig. 8 illustrate illustrate the realization according to the disclosure, rotate the most multiple identified display for simultaneously The flow chart of the example of the method for screen orientation.

Detailed description of the invention

Along with improvement the most technically, electronic equipment continues to play the most important work in the life of people With.As it is used herein, term " electronic equipment " and " equipment " are used interchangeably and refer to various smart phone, display screen Curtain, cell phone, panel computer, personal digital assistant (PDA), kneetop computer, computer, server and include processor And can with input equipment (such as, touch input device, no touch or close to input equipment etc.) other similar electricity of communicating Any one in subset.

For the task that the activity that many is daily is relevant with work, different users relies on different types of electronic equipment. The a large number of users utilizing different types of electronic equipment stimulates supplier to provide that disclosure satisfy that the growth of user's request, support extensively General available service and the equipment of offer reliable communication.

There is different size, form in electronic equipment, and can include different technical characteristics.Due to swashing of electronic equipment Increasing, its technical capability and function are persistently to change and increase.Correspondingly, these equipment also provide for expansion service to its user. These electronic equipments are usually utilized to access the Internet and other equipment communications, display different content, record audio frequency and/or regard Frequently and carry out other individual or the relevant function of business.

Many electronic equipments can be portable or handheld equipment now.With the fixed orientation can with its display The fixing computer equipment of (such as, horizontal orientation, machine-direction oriented etc.) is different, shows on mobile or handheld computing device Application can be checked in laterally or longitudinally pattern.Most of handheld electronic devices include that nextport hardware component NextPort (such as, accelerates Meter, gyroscope etc.), it identifies the request for changing orientation, and correspondingly adjusts the screen of mobile device.On the mobile apparatus Available screen rotation allow user to check application and content on devices with different orientations and aspect ratio.

As it is used herein, term " display " and " display device " are used interchangeably and refer to for visual form Present the outut device (that is, device hardware) of information.As it is used herein, what term " screen " referred to produce over the display Shown information or image.As it is used herein, term " screen orientation " refers at display (such as, electronic equipment Display or external display) orientation of the upper screen produced.Such as, display can be with horizontal screen orientation or longitudinal screen Orientation display information.

It addition, many electronic equipments can via input equipment (such as, touch display, touch pad, no touch or close Equipment etc.) controlled or operated.In some instances, input equipment is used to provide electronic equipment by data and control signal Nextport hardware component NextPort.Touch input device can be by user's input appearance by the part with at least one finger touch input device Gesture controls.Some touch input devices also can detect object, such as, writing pencil or other suitable objects.User may utilize Input equipment controls the operation of electronic equipment to respond any content (such as, information, Email etc.) shown, and controls How system displays the content on screen (such as, by scaled text or the size of image).Alternately, no touch or connect Nearly input equipment can include various electronic building brick (such as, proximity transducer, image first-class), it allows user at not physical touch In the case of input equipment (that is, screen or touch pad) or a part for real equipment by input (such as, from the teeth outwards or enclose Winding apparatus spatially, etc.) control the operation of electronic equipment.Such as, such input can near equipment, lower section or on Side space is received.No touch or close to input equipment allow user outside the physics frame of input equipment or electronic equipment And provide input to mutual with equipment in any circumferential surface.

When operating these electronic equipments, change the display of equipment for a user or be connected to appointing of electronic equipment Screen orientation (such as, from horizontal orientation to machine-direction oriented) of what external display or display pattern are probably difficulty.Such as, Change the display of electronic equipment or the screen orientation of external display or display pattern can relate to use input equipment (such as, Mouse, keyboard etc.) implement necessary order.But, use mouse or keyboard (that is, device external or inside) to come for user Say not always convenient or effectively (such as, when equipment is handheld, keyboard needs to take substantial amounts of space over the display Deng).Such as, be initially the input of the equipment design using keyboard or mouse, input for not using keyboard or mouse to carry out or Dirigibility is very inconvenient or loaded down with trivial details.

As it is used herein, term " display pattern " refers on the display of electronic equipment and is being connected to electronics The position of the screen at least one external display of equipment or outward appearance.Such as, display pattern can include " clone mode ", its The display of middle electronic equipment and at least one external display present identical screen.Additionally, display pattern can include " extension Pattern ", wherein screen shown on the display and at least one external display of electronic equipment (or sharing).Other Display pattern is also available.

In the presence of such connection, electronic equipment is connected to external display and adjusts the display of electronic equipment It is orientated with the screen of external display and is also likely to be difficulty.Such as, electronic equipment can be via the connection end on equipment Mouth is connected to external display.When electronic equipment is portable or during hand-held type device, and connectivity port can be positioned in equipment On specific part.Therefore, when the screen orientation that user's decision changes electronic equipment by being physically rotated equipment, connectivity port May be positioned so that and can prevent external display connected (such as, equipment can be rotated on support, and enters connectivity port Can be stopped by support).

Furthermore, it is possible to the problem that there is the screen orientation changing the electronic equipment being connected to external display.Such as, electricity is worked as When subset is connected to external display and user determines rotating electronic device to change its screen orientation, the behaviour of electronic equipment Make the rotation of the screen of the possible prevention equipment of system (" OS "), because it can not control the orientation of the external display added.Cause This, even if electronic equipment is physically rotated, the screen orientation of display is likely to change.

This description relates to the screen orientation of the display of rotating electronic device, is rotatably coupled to the outside of electronic equipment The screen of display is orientated and changes the equipment of display pattern, method and the computer-readable medium of these display.Specifically Ground, this description proposes for by using three part posture rotating display devices, (such as, the master of electronic equipment shows on the input Show device or external display) screen orientation method.Additionally, the method proposes to use three part postures to change electronic equipment Display and be connected to the display pattern of at least one external display of electronic equipment.

In one example, in order to the screen of revolving outer display is orientated, the method can use two motionless inputs With a non-linear action.Refer in input equipment (touch input device, no touch as it is used herein, term " inputs " Or close to input equipment) a part or region on customer-furnished reality contribution or attempt (such as, touch input, The input of no touch).As it is used herein, term " action " refers to any motion on the position of input or change.? In another example, for the screen orientation of the display of rotating electronic device, the method can use and include being rotated by three parts moving Make three part postures of three the motionless inputs followed.In order to change display and at least one outside display of electronic equipment The display pattern of device, the method proposed can use and include two motionless inputs and the posture of a line movement.

Therefore, the description proposed can accurately, effectively and efficiently the screen of rotating electronic device be orientated and change Electronic equipment and the display pattern of at least one display added.The three part postures proposed by use, user can be only Stand and be rapidly selected and/or change orientation and the position of display.

In the following detailed description, refer to accompanying drawing, accompanying drawing constitutes the part of this specification, and wherein as institute The concrete example that disclosed theme can be committed to practice is illustrated.Should be appreciated that and can utilize other examples and knot can be made Structure or logical changes, without departing from the scope of the present disclosure.Therefore, the following detailed description should not go to understand according to limited significance, But the scope of the present disclosure is defined by the appended claims.Moreover, it will be appreciated that wording used herein and term be for The purpose described, is not construed as limiting." comprise " in this article, " including " or " having " and variant thereof mean bag Include items listed thereafter and its equivalent and additional project.Additionally, as used herein term "based" means " it is based at least partially on ".Shall also be noted that the assembly of equipment based on multiple hardware and softwares and multiple different structure can It is used to realize disclosed method and equipment.

Fig. 1 is the screen orientation of the display for rotating electronic device, is rotatably coupled at least one of electronic equipment The schematic diagram of the electronic equipment 10 of the screen orientation of external display and the display pattern of change display.The electronics of diagram Equipment 10 is capable of techniques described below.Should be appreciated that the technology described about equipment 10 can use any other electricity Subset realizes.Electronic equipment 10 can be panel computer, kneetop computer, personal computer, integration calculating equipment, game Machine, server, smart phone, music player, visualization player, personal digital assistant (PDA), cell phone, electronics are remembered Thing this, multiple distributive computing facility, or include processor and can show that any other of content is suitable over the display Electronic equipment.In the example shown in the series of figures, electronic equipment 10 comprises the steps that input equipment 20 (such as, touch screen, touch pad, oncontacting That touch or close to equipment etc.), at least one display 25 (it can operate as input equipment), at least one processing equipment 30 (also referred to as processor), memory resource 35, input interface 45 and communication interface 50.

In other examples, electronic equipment 10 includes that add, less or different assembly, for realizing in this article The function described.Should be appreciated that in some implementations, the operation described by the electronic equipment 10 described about this performs can It is performed between electronic equipment 10 and other electronics/calculating equipment (not shown) or is distributed.

As illustrated by following additional details, electronic equipment 10 include software, hardware or they suitably combine, It is configured so that the function of electronic equipment 10 is possibly realized, and allow its realize technology discussed below and with one Or multiple system or equipment is mutual.Such as, electronic equipment 10 includes that communication interface is (such as,Interface, Interface, 3G interface, 4G interface, near-field communication (NFC) interface etc.), it is used to be connected with other equipment/systems and/or connect To network (not shown).Network can include any suitable type or the network of configuration, with allow electronic equipment 10 and any its Communication between his equipment/system (such as, other electronic equipments, calculating equipment, display etc.).

Such as, electronic equipment 10 can be connected with at least one external display 15.Alternately, equipment may be connected to multiple External display (not shown).In one implementation, electronic equipment 10 includes COM1 (not shown), and this COM1 allows External display 15 is connected to electronic equipment 10.

Visual information is supplied to user by the display 25 of equipment 10, such as, and various contents, icon, label, video figure Picture, picture etc..Display 25 also can show to come operation on comfortable electronic equipment 10 on the screen (not shown) of display 25 The content of different application.Display 25 can be transparent liquid crystal display (LCD), Organic Light Emitting Diode (OLED) display Device, plasma scope or any other suitable display.Display 25 can be a part (example of electronic equipment 10 As, when electronic equipment 10 is panel computer or integration apparatus), can be the group separated with electronic equipment 10 electronic communication Part (such as, when the desk computer that electronic equipment is the display with separation), and can be also act as handheld The detachable assembly (such as, when electronic equipment 10 is convertible calculating equipment) of equipment.

At least some of the 32 of whole display 25 or display can be that (that is, display is for touching display for touch sensible Device), for detection from the input/contact and be used for providing input to electronic equipment 10 of object.Touch display 25 can Serve as input equipment 20 and user can be allowed to use the upper surface of object (such as, finger, writing pencil etc.) contact display 15. The specific detail (such as, type of action, position, pressure, persistent period etc.) of input or touch is by different information and/or order There is provided and be used for processing to electronic equipment 10.

In one example, display 25 can include touch panel (not shown), and this touch panel is positioned in display surface (not shown) above plate.Electronic equipment 10 may also include at least one electronic building brick 34 (such as, touch sensor, optical fiber component Deng) or electronics and/or the various combination of nextport hardware component NextPort 34, to identify contact point, and scan and the finger of detection user and/or Finger-image.In one implementation, the electronic building brick of display 25 can include multiple that be positioned on touch panel and processor The sensor of 30 communications.

Display 25 may also include screen controller 36, and this screen controller 36 processes from touch panel and electronic building brick thereof 34 signals received and these signals are converted into touch event data (that is, detected contact, contact position, contact Type etc.), these touch event data are passed to the processor 30 (such as, via bus 55) of electronic equipment 10.Display can Farther including software driver 38, interface is provided the operating system 70 of equipment 10 and will touch by this software driver 38 Event data is converted into different events.

In one example, input equipment 20 can operate touch display 25 similarly (for example, it may be touch input sets Standby).In another example, input equipment 20 can be no touch or close to input equipment, it can allow user to pass through at table On face or around equipment 10 space (such as, near equipment 10, lower section, above space in, etc.) posture or action carry Make to input outside the physics frame extending to input equipment 20 or electronic equipment 10 for input.Input equipment 20 can be incorporated in The inside of electronic equipment 10 can be maybe the external input device communicated with equipment 10.Touch display described herein 25 or input equipment 20 be not intended to limit the device of the input for receiving touch sensible equipment, but carried as example Supply.Therefore, any other suitable equipment or device can be used to the input of touch posture provided to equipment 10 and produce following institute The function described.

The processing equipment 30 of electronic equipment 10 (such as, CPU, a distribution type processor, microprocessor, micro- Controller, special IC (ASIC), graphic process unit, multiprocessor, virtual processor, cloud processing system or other conjunctions Suitable controller or programmable device), memory resource 35, input interface 45 and communication interface 50 be operably linked to bus 55。

Communication interface 50 allows electronic equipment 10 and multiple networks, communication link and external device communication.Input interface 45 The information from the equipment/system communicated with electronic equipment 10 can be received.In one example, at least include can for input interface 45 Receive the data-interface 60 from any external equipment or the data of system.

Processor 30 includes controller 33 (also referred to as control unit) and can use the processing system of any suitable type Realizing, at least one of which processor performs to be stored in the computer-readable instruction in memorizer 35.Processor 30 can be independent Ground controls display 25, external display 15 and any other external display.Processor 30 can receive from input equipment 20, display 25 or the input of any other input equipment that communicates with equipment 10.

Memory resource 35 includes that any suitable type, quantity and the volatibility of configuration or non-transitory machine readable are deposited Storage media 37, to store instruction and data.The example of the machinable medium 37 in memorizer 35 includes: read-only storage Device (" ROM "), random access memory (" RAM ") (such as, dynamic ram [" DRAM "], synchronous dram [" SDRAM "] etc.), electricity Erasable Programmable Read Only Memory EPROM (" EEPROM "), flash memory, SD card and other suitable magnetic, optics, physically or electrically son are deposited Storage equipment.Memory resource 35 can be additionally used in and stores temporary variable or other average informations during processor 30 performs instruction.

Memorizer 35 also can store operating system 70 and network application 75.Operating system 70 can be multi-user, multiprocessing, Multitask, multithreading and real-time.Operating system 70 can also carry out basic task, such as, identifies the input from input equipment； Send output to projector and photographic head；Follow the tracks of the file on memorizer 35 and catalogue；Control ancillary equipment, such as, beat Print machine, image capture device；And the traffic in management bus 55.Network application 75 includes for setting up and maintaining network even Connect the various assemblies of (such as realizing the computer-readable instruction of communication protocol).

The software being stored on non-transitory machinable medium 37 and performed by processor 30 includes, such as, Gu Part, application, routine data, filter, rule, program module and other executable instructions.Inter alia, control unit 33 Retrieve and perform, from machinable medium 37, the instruction that control process described herein is relevant with method.At one In example, the instruction being stored in non-transitory machinable medium 37 realizes input detection module 39, posture determines mould Block 40 and screen are orientated and display schema modification module 41.In other examples, instruction can realize more or less of module (such as, about other modules various of operation of equipment 10).In one example, module 39-41 available be used for realizing with The electronic circuit of lower described function realizes.As it has been described above, additionally or alternatively, module 39-41 can be implemented as On machinable medium coding and by the executable a series of instructions of processor.

As described in following additional details, input detection module 39 detects in the input communicated with electronic equipment 10 The upper input (such as, touch, action) received of equipment (equipment 20, display 25 etc.).Posture determines that module 40 identifies comfortable Three part postures of the input received on input equipment.Screen orientation and display schema modification module 41 are revolved based on three part postures Turn the screen orientation of display 25 and external display 15, and change the display pattern of at least display 15 and 25.At some In example, being orientated to change the screen of the display of electronic equipment, module 40 and 41 can recognize that and uses and includes by three parts Three part postures of three motionless inputs that spinning movement is followed.In order to change the display of electronic equipment and at least one outside The display pattern of portion's display, module 40 and 41 can recognize that and uses and includes two motionless inputs and the appearance of a line movement Gesture.

Memorizer 35 can include at least one data base 80.In other example implementation, equipment 10 may have access to external data Storehouse (not shown), this data base can remotely be stored (such as, can be accessed) via network or cloud by electronic equipment 10.Data base 80 Or external data base 20 can store the various information about posture, the operation of this posture controllable device 10.

Fig. 2 illustrates and illustrates the screen orientation of the display for rotating electronic device or set for being rotatably coupled to electronics The flow chart of the example of the method 100 of the screen orientation of at least one standby external display.In one example, method 100 Can be performed by the control unit 33 of the processor 30 of electronic equipment 10.Each about method 100 described herein Kind of key element or frame can be simultaneously in parallel or to be different from the sequentially executed of the serial executive mode of diagram.Method 100 can also Enough additional or less key elements used than illustrating in the example shown in the series of figures are performed.

Method 100 can be with that encode, by the process of electronic equipment 10 on non-transitory machinable medium 37 The form of the executable instruction of device 30 is performed.In one example, the instruction for method 100 realizes input detection module 39, posture determines module 40 and screen orientation and display schema modification module 41.In other examples, the execution of method 100 Can be distributed between processing equipment 30 and other processing equipments communicated with processing equipment 30.In another example, method 100 Can be performed on the equipment of separation being connected to electronic equipment 100.

Method 100 is from the beginning of frame 110, and wherein processor 30 shows the first screen on the display 25 of electronic equipment 10 (not shown) and show the second screen (not shown) at least one external display 15 be connected to electronic equipment 10.? Display 20 can be identical or differ with the screen of display on 25.As it has been described above, term " screen " refers to produce over the display Shown information or image.Therefore, display 25 can show webpage, and display 15 can show text document.

Then, control unit 33 identifies the three part postures (at 120) received on the input.This can be examined by input Survey module 39 and posture determines that module 40 performs.Posture can include a part or body parts (such as, the hands of at least health Deng) the motion of combination.Three part postures can include that three (but the while of in some instances) key elements separated (such as, touch Or action) and can use three fingers (or other objects) separated to perform.Input equipment can communicate with electronic equipment 10.As Upper described, input equipment can be equipment 20, touch display 25 or any other suitable input equipment.As following additional Details in explanation, control unit 33 identifies the type of the three part postures received on the input and based on posture Type enters frame 130.

At 130, when electronic equipment 10 is connected to external display, control unit 33 rotates aobvious based on three part postures Show that the screen of in device 25 and at least one external display 15 is orientated.In other words, control unit 33 can be by display The screen orientation of 25 changes into the second screen orientation (such as, machine-direction oriented) from the first screen orientation (such as, horizontal orientation).When When equipment 10 is connected to external display, control unit 33 can change the screen orientation of in display 25 and 15.This can It is orientated by screen and shows that schema modification module 41 performs.As described in following additional details, for rotational display Three part postures of the screen orientation of device 25 and at least one external display 15 can be different.

In one example, the three part postures received on the input can include two motionless inputs and one non- Line movement, to rotate the screen orientation of at least one external display 15.In another example, posture can include two actions Input and a non-linear action.As described below, described posture be rotatably attached to electronic equipment 10 other outside The screen arrangement of display.In an example implementation, the screen controller 36 of display 25 processes and receives from touch display Signal (that is, input) and these signals are converted into touch event data, these touch event data are passed to electronics and set The software driver 38 of standby 10.Software driver 38 leads to the processor 30 of the operating system 70 providing commands to equipment 10 Letter, input touch is converted into event (such as, Rotation screen, change display pattern etc.) by this operating system 70.

Fig. 3 A and Fig. 3 B illustrates the example of three part postures 85A-B of the screen orientation for rotating display device.Fig. 3 A Two motionless input 86A-B and a non-linear action 87 are shown with Fig. 3 B.Two motionless inputs can be to synchronize Input or continuous print input.In the example shown in the series of figures, two motionless input 86A-B forefinger and the thumbs of one hands are held OK, rather than line movement 87 forefinger of the another hands of user performs.Alternately, the available different finger of these inputs Or perform with instrument (such as, writing pencil).Two motionless inputs can be positioned in different orientation on the input (such as, horizontal alignment, vertical orientated).Such as, two motionless inputs can be in close proximity to each other.In an example implementation, Non-linear action 87 can be received after two motionless inputs.In another example implementation, non-linear action can be with two Motionless input is received simultaneously.Two motionless inputs can be to touch, press or any other suitable type motionless Input.Non-linear action can be " arch " action, deviously sliding action, " arc " action or the non-thread of any other type Sexual act.

Alternately, two input 86A-B can be action input.Such as, pinch or grasping movement is used as two and moves Make the example of input 86A-B.

In another example, the three part postures received on the input can include being followed by three part spinning movements Three motionless inputs, with the screen orientation of the display 25 of slewing 10.Three part spinning movements can be similar to rotation lock The action of the key in safe deposit box.Fig. 4 A and Fig. 4 B illustrates three part postures of the screen orientation for rotating display device The alternative example of 88A-B.Fig. 4 A and Fig. 4 B shows three the motionless input 89A-followed by three part spinning movements 90 C.Three motionless inputs can be the input synchronized or continuous print input.In the example shown in the series of figures, motionless input 89A-C uses The forefinger of the hands of user, thumb and middle finger perform.Alternately, these inputs can use different fingers or use another instrument (such as, writing pencil) performs.When input equipment 20 be no touch or during close to equipment, three part postures may be included in rotation Before or three fingers are pinched together by period and before rotation or period closes the whole hands of user.Should be appreciated that In other example implementation, the posture that the screen for rotating display device 25 of Fig. 4 A and Fig. 4 B is orientated can be used to revolving outer and shows The screen orientation of device.Additionally, the posture that the screen for revolving outer display 15 of Fig. 3 A and Fig. 3 B is orientated can be used to rotate The screen orientation of display 25.

With continued reference to Fig. 4 A and Fig. 4 B, three part postures can be received in any part region of input equipment.Three parts The specific direction of spinning movement 90 can determine that the direction of screen rotation.In other words, if three part spinning movements 90 about The clockwise direction of display 25, then control unit can be rotated clockwise the screen orientation of display 25.Display 25 Screen orientation can rotate with incremental mode, and the most each three part spinning movements can rotate with 90 degree or another predetermined increment The screen of display.

Fig. 5 illustrates the flow chart of the example illustrating the method 200 being orientated the display that need to be rotated for recognition screen. The method can relate to the rotation (as shown in Fig. 3 A and Fig. 3 B) of the screen orientation of the display of the outside at electronic equipment 10. In some instances, electronic equipment 10 may be connected to multiple external display and (such as, is positioned at the right/left limit of equipment 10, equipment 10 Up/down side etc.).In one example, method 200 can be held by the control unit 33 of the processor 30 of electronic equipment 10 OK.Method 200 can with on non-transitory machinable medium 37 coding, can by the processor 30 of electronic equipment 10 The form of the instruction performed is performed.

Method 200 is from the beginning of frame 210, and wherein processor 30 detects the input 86A-that two on input equipment 20 are motionless B.Two motionless inputs can be the input synchronized or continuous print input.At 220, control unit 33 determine two motionless The position (such as, by using at least one electronic building brick 34) of input 86A-B.Then, control unit detects at input equipment On non-linear action 87 (at 230).At 240, control unit 33 determines that non-linear action 87 is motionless relative to two The position of input 86A-B.Then, control unit determines the direction (at 250) of non-linear action 87.

Based on process as described in Figure 5, control unit 33 determines that its screen is orientated the external display that need to be rotated. When non-linear action is on the right of two motionless inputs (as shown in figure 3 a), control unit 33 is rotatably positioned at and sets The screen orientation of the external display 15 on the right of the display 25 of standby 10.When non-linear action is on a left side for two motionless inputs During limit (as shown in FIG 3 B), control unit 33 is rotatably positioned at the screen of external display 15 on the left side of display 25 Orientation.

When non-linear action is in the lower section of two motionless inputs, control unit is rotatably positioned at display 25 times The screen orientation of the external display 15 of side.When non-linear action is above two motionless inputs, control unit 33 can Rotate the screen orientation of the external display 15 of the top being positioned at display 25.It addition, the direction of non-linear action can determine that The direction of the screen rotation on display 25.Such as, if non-linear action is in the counter clockwise direction about display 25, then Control unit 33 can counterclockwise revolving outer display 15 screen orientation.Alternately, if non-linear action is about aobvious Show the clockwise direction of device 25, then control unit 33 can turn clockwise the screen orientation of external display 15.Display 15 Screen orientation can rotate with incremental mode, and the most each non-linear action can be with 90 degree or another predetermined increment rotational display The screen of device.

Fig. 6 illustrates the display pattern of display and at least one external display illustrated for changing electronic equipment The flow chart of the example of method 300.In one example, method 300 can be performed by electronic equipment 10.Method 300 can be with input Detection module 39, posture determine that module 40 and screen orientation and display schema modification module 41 perform, wherein these module profits Realize with the electronic circuit being used for realizing function described below.Described herein wants about the various of method 300 Element or frame can be simultaneously in parallel or to be different from the sequentially executed of the serial executive mode of diagram.Should be appreciated that method 300 Can be implemented by electronic equipment 10 or any other electronic equipment.

Method 300 is from the beginning of 310, and wherein electronic equipment 10 identifies at input equipment (such as, equipment 25, display 25 etc.) On posture.In one example, posture includes two motionless inputs and a line movement.In another example, two Input can be action input.Such as, pinch or grasping movement is used as the example that two actions input.

Fig. 7 A and Fig. 7 B illustrates the display mould of the display for changing electronic equipment and at least one external display The example of posture 91A-B of formula.In the example shown in the series of figures, two motionless input 92A-B forefinger and the thumbs of one hands come Perform, and line movement 93 forefinger of the another hands of user performs.Alternately, these inputs or action can be by differences Finger or perform with instrument (such as, writing pencil).Two motionless inputs can be the input synchronized or continuous print input. In an example implementation, line movement 93 can be received after two motionless inputs.In another example implementation, linearly Action 93 can be motionless with two input received simultaneously.Line movement 9393 can include towing, linear slide or any other The line movement of type.

At 320, electronic equipment 10 detects the input 92A-B that two on the input are motionless.Then, at 330, Equipment 10 determines the position (such as, by using at least one electronic building brick 34) of two motionless input 92A-B.Then electronics Equipment 10 detects line movement 93 (at 340) on the input.At 350, equipment 10 determines that line movement 93 is relative Position in two motionless input 92A-B.Then, equipment 10 determines the direction (at 360) of line movement 93.

At 370, when electronic equipment 10 is connected to second display, electronic equipment 10 is based on appearance on the input Gesture changes the display pattern of display 25 and at least one external display 15.As shown in fig. 7, when electronic equipment determines When line movement points to away from two motionless inputs, equipment can be by display 25 and the display of at least one external display 15 Pattern changes into mode of extension.According to the position on the external display connected, the position of two motionless inputs and line The direction of sexual act, electronic equipment 10 can determine which external display relates to the change of display pattern (when multiple outside displays When device is connected to equipment 10).

Such as, when line movement is on the right and when pointing to away from two motionless inputs (as shown in fig. 7), equipment The display pattern of display 25 and 15 can be changed into mode of extension by 10, and wherein basic display unit is on the left side, and slave display is on the right side Limit.Additionally, when line movement is on the left side and when pointing to away from two motionless inputs, equipment 10 can aobvious by display 25 and 15 Showing that pattern changes into mode of extension, wherein basic display unit is on the right, and slave display is on the left side.When line movement up and refers to When the input motionless away from two, the display pattern of display 25 and 15 can be changed into mode of extension, Qi Zhongzhu by equipment 10 Display is below, and slave display is above.When line movement is in lower section and when pointing to away from two motionless inputs, equipment The display pattern of display 25 and 15 can be changed into mode of extension by 10, and wherein basic display unit is above, and slave display under Face.

Alternately, when electronic equipment 10 determines that line movement points to towards two motionless inputs, equipment 10 can be by The display pattern of display 25 and at least one external display 15 changes into clone mode (as shown in fig. 7b).This In the case of, the direction of the position of external display, the position of two motionless inputs and line movement can determine which is outside aobvious Show that device relates to the change (when multiple external displays are connected to equipment 10) of display pattern.

Such as, when line movement is on the right and when pointing to towards two motionless input (as shown in fig. 7b), equipment The display pattern of display 25 and 15 can be changed into clone mode by 10, and wherein external display 15 is on the right of display 25. Additionally, when line movement is on the left side and when pointing to towards two motionless inputs, and equipment 10 can be by the display of display 25 and 15 Pattern changes into clone mode, and wherein external display 15 is on the left side of display 25.When line movement up and points to court When two motionless inputs, the display pattern of display 25 and 15 can be changed into clone mode by equipment 10, and its peripheral shows Show that device 15 is above display 25.When line movement is in lower section and when pointing to towards two motionless inputs, equipment 10 can be by The display pattern of display 25 and 15 changes into clone mode, and wherein external display 15 is in the lower section of display 25.

Fig. 8 illustrates the method 400 of the screen orientation illustrated for rotating the most multiple identified display simultaneously The flow chart of example.As it has been described above, electronic equipment 10 may be connected to multiple external display.In one example, method 400 can It is performed by the control unit 33 of the processor 30 of electronic equipment 10.Method 400 can be to deposit at non-transitory machine readable On storage media 37 coding, be performed by the form of the executable instruction of processor 30 of electronic equipment 10.In one example, Instruction for method 400 realizes input detection module 39, posture determines module 40 and screen is orientated and display schema modification Module 41.

Method 400 is from the beginning of frame 410, and wherein control unit 33 will show the first screen on display 25.Electronic equipment 10 may be connected to maybe to be free of attachment to any external display (not shown).At 420, identification is set by control unit 33 in input Standby upper three part postures (such as, equipment 20, display 25 etc.).In one example, posture includes three motionless inputs. Three motionless inputs can be the input synchronized or continuous print input.The forefinger of hands, thumb and the middle finger of input available subscribers Perform.Alternately, input can use different fingers or performs with instrument (such as, writing pencil).Three motionless inputs Can be to touch, press or the input of any other suitable type.In other examples, posture can include dissimilar or quantity Input.

At 430, when electronic equipment is connected to multiple external display, control unit 33 by recognition screen orientation need by The external display rotated.In this case, electronic equipment 10 may be connected to multiple external display (not shown).Such as, Three part postures on the input can show to control unit 33, and user wants rotating display device 25 and/or is connected to set The screen orientation of the display of standby 10.In this case, after being identified three part postures by control unit 33, can follow New information screen (not shown) is shown on display 25,15 or another external display.Message screen can provide about being connected to The information of the sum of the display of equipment 10.Such as, message screen can be according to them relative to the location graphic of display 25 Represent all displays being connected to equipment 10.

All external displays being connected to equipment 10 can be numbered (such as, 1...n) respectively on message screen.Separately Outward, message screen can provide for selecting the option of the display that need to be rotated (such as, by being included on message screen display All displays near check box, by the frame etc. of the highlighted image representing all displays).So, user is optional Select or identify that its screen is orientated the external display that need to be rotated.User may select one or more external display.User can Select or can not select the display 25 of equipment 10.In one example, when the screen of the external display selected is rotated, The screen of display 25 is rotated automatically.In another example, the screen of the external display only selected is rotated, and display The screen of 25 is not rotated unless by specific selection.In another example, the only screen of display 25 can be rotated.

At 440, control unit will identify rotation gesture on the input.In one example, rotation gesture is Follow the non-linear action (such as, being similar to the non-linear action shown in Fig. 3 A and Fig. 3 B) of three motionless inputs.Non- Line movement can be received after three motionless inputs.In another example implementation, non-linear action can be motionless with three Input received simultaneously.The direction of non-linear action can determine that the direction of screen rotation on selected display.Such as, If non-linear action is in the counter clockwise direction about display 25, then control unit 33 can revolving outer display counterclockwise Screen is orientated.Alternately, if non-linear action is at the clockwise direction about display 25, then control unit 33 can up time The screen orientation of pin revolving outer display.The screen orientation of the display selected can rotate with incremental mode, the most each Non-linear action can be with 90 degree or the screen of another predetermined increment rotating display device.

In another example, rotation gesture is that to use three parts carried out for the finger of three motionless inputs to rotate dynamic Make (such as, being similar to the spinning movement shown in Fig. 4 A and Fig. 4 B).In one example, three part spinning movements are in input Rotary motion is performed on equipment.User can use to perform to rotate for the identical finger performing three motionless inputs and move Make.In this case, after three initial motionless inputs, user can from input equipment (or when input equipment be to connect During nearly equipment, from the space of surrounding) take away or do not take his or her hands away.As it has been described above, about three parts of Fig. 4 A and Fig. 4 B Spinning movement, the direction of three part spinning movements can determine that the direction of screen rotation on selected display.

At 450, the screen simultaneously rotating at least identified display is orientated by control unit 33.Selectively show Show that the screen of device can be rotated with identical orientation.In other words, user the screen of the external display selected based on The rotation gesture at family is rotated (such as, from lateral to machine-direction oriented etc.) simultaneously.In another example implementation, control unit 33 will The screen of rotating display device 25 is orientated and the screen of external display simultaneously.Therefore, in some cases, display 25 and choosing The screen of the external display selected can be rotated without specific selection display 25 simultaneously and in a same direction.Alternative Ground, if user wants the screen of display 25 to be rotated together with the screen of external display, then he or she may need Specific selection display 25 in message screen.Another alternative in, the only screen of display 25 can be chosen and rotate.

Claims (15)

1. a method, including:

First display of electronic equipment shows the first screen and be connected to described electronic equipment at least one second The second screen is shown on display；

Identify the three part postures received on the input；And

When described electronic equipment is connected to second display, rotate described first display and described second based on described posture The screen orientation of a display in display.

Method the most according to claim 1, wherein said three part postures include two motionless inputs and a non-thread Sexual act to rotate the screen orientation of described second display, wherein said non-linear action the motionless input of said two it Received afterwards.

Method the most according to claim 1, wherein said three part postures include three followed by three part spinning movements Individual motionless input, to rotate the screen orientation of described first display.

Method the most according to claim 2, farther includes:

The input that detection said two on described input equipment is motionless；

Determine the position of the motionless input of said two；

The detection described non-linear action on described input equipment；

Determine the position of the described non-linear action input motionless relative to said two；And

Determine the direction of described non-linear action.

Method the most according to claim 4, farther includes: when described non-linear action is in the motionless input of said two The right time, rotate be positioned at described first display the right described second display screen orientation.

Method the most according to claim 2, farther includes: when described non-linear action is in the motionless input of said two The left side time, rotate be positioned at described first display the left side described second display screen orientation.

Method the most according to claim 2, farther includes: when described non-linear action is in the motionless input of said two Lower section time, rotate be positioned at described first display lower section described second display screen orientation.

Method the most according to claim 2, farther includes: when described non-linear action is in the motionless input of said two Top time, rotate be positioned at described first display top described second display screen orientation.

9. an electronic equipment, including:

Show the first display of the first screen；

Input equipment；And

At least one has the processing equipment of control unit, and described control unit is used for:

Identifying the posture on described input equipment, wherein said posture includes two motionless inputs and a line movement； And

When described electronic equipment is connected to second display, based on described posture, change described first display and at least The display pattern of individual second.

System the most according to claim 9, wherein said control unit is further:

The input that detection said two on described input equipment is motionless；

Determine the position of the motionless input of said two；

The detection described line movement on described input equipment；

Determine the position of the described line movement input motionless relative to said two；And

Determine the direction of described line movement.

11. systems according to claim 10, wherein said control unit is further:

When described line movement points to away from the input that said two is motionless, by described first display and described second display The display pattern of device changes into mode of extension.

12. systems according to claim 8, wherein said control unit is further:

When described line movement points to towards the input that said two is motionless, by described first display and described second display The display pattern of device changes into clone mode.

13. 1 kinds of non-transitory machinable mediums, are encoded with and can be held by least one processing equipment of electronic equipment Row instruction, described machinable medium include instruct with:

Show the first screen on the first display；

Identifying three part postures on the input, wherein said posture includes three motionless inputs；

When described electronic equipment is connected to multiple external display, recognition screen is orientated the external display that need to be rotated；

Identify the rotation gesture on described input equipment；And

Rotate the screen orientation of at least identified display simultaneously.

14. non-transitory machinable mediums according to claim 13, farther include instruct with:

Rotating the screen orientation of described first display, wherein said rotation gesture is to follow described three motionless inputs simultaneously Non-linear action.

15. non-transitory machinable mediums according to claim 13, wherein said rotation gesture is used for using The three part spinning movements that finger in described three motionless inputs is carried out.